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Practical Privacy-Preserving Indoor Localization Based on Secure Two-Party Computation

Raine Nieminen, Kimmo Järvinen

2020IEEE Transactions on Mobile Computing38 citationsDOIOpen Access PDF

Abstract

We present a privacy-preserving indoor localization scheme based on received signal strength measurements, e.g., from WiFi access points. Our scheme preserves the privacy of both the client's location and the service provider's database by using secure two-party computation instantiated with known cryptographic primitives, namely, Paillier encryption and garbled circuits. We describe a number of optimizations that reduce the computation and communication overheads of the scheme and provide theoretical evaluations of these overheads. We also demonstrate the feasibility of the scheme by developing a proof-of-concept implementation for Android smartphones and commodity servers. This implementation allows us to validate the practical performance of our scheme and to show that it is feasible for practical use in certain types of indoor localization applications.

Topics & Concepts

Computer sciencePaillier cryptosystemCryptographyScheme (mathematics)ServerSecure multi-party computationEncryptionAndroid (operating system)Homomorphic encryptionComputationComputer networkCryptographic primitiveComputer securityTheoretical computer scienceCryptographic protocolPublic-key cryptographyAlgorithmHybrid cryptosystemOperating systemMathematical analysisMathematicsIndoor and Outdoor Localization TechnologiesPrivacy-Preserving Technologies in DataWireless Communication Security Techniques
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